大城市应对气候变化的可持续发展研究——以上海为例

doi:10.11870/cjlyzyyhj201601001

摘要/Abstract

摘要： 在全球气候变化背景下,社会城镇规划与自然气候变化之间的关系越发密切,城镇规划体系需要纳入气候变化的影响并考虑适应气候变化的策略。首先以发达国家及世界著名大城市为参考,对美国、德国和日本在应对气候变化的城镇可持续发展规划方面的成功经验和实践措施分别进行了综述和提炼;然后,以上海为例,对照分析了我国大城市在城镇化过程中面临的气候变化挑战及存在的脆弱性,包括城镇发展规划与气候环境的相容性考虑不够、城镇化过程对气候环境的影响缺乏充分论证、城镇基础设施抵御气象灾害的能力较低、气候变化对城镇人体健康的影响未给予高度关注等;最后,指出了我国大城市应对气候变化的城镇可持续发展思路及重点方向,即充分考虑区域气候容量、大力构建生态绿色通风廊道;深入开展城镇功能布局的气候可行性论证和气象灾害风险评估;加强城市气候变化研究和实验,不断更新城市规划设计参数和标准规范;加大对脆弱人群和外来常住人口生命安全和人体健康监测预警;积极完善城镇化适应气候变化的机制等,以期为城镇发展体系的编制和应用提供参考和借鉴。

关键词: 应对气候变化, 大城市, 可持续发展, 规划, 上海, 综述

Abstract: Under the background of global climate change, the relationship between urban planning and climate change is becoming closer. For the establishment of urban planning systems, it is necessary to take the effects of climate change and the strategies of climate change adaptation into account. With developed countries and the world famous large cities as references, the successful experiences and practices of town's sustainable development for addressing climate change in the United States, Germany and Japan were summarized respectively. then, taking Shanghai as an example, the challenge of climate change faced by our large cities and their existing vulnerabilities in the process of urbanization were comparatively analyzed and summarized as follows:a insufficient consideration of the urban development planning and the compatibility of climate, an inadequate argument of the influence of the urbanization process on climate environment, a low standing ability of urban infrastructure against meteorological disasters and less attention to the impact of climate change on human health in cities and towns, etc. Lastly, several ideas or key directions of town's sustainable development in China for addressing climate change were put forward, including fully considering the capacity of regional climate and vigorously building ecological green ventilation gallery; Deeply carrying out the climate feasibility of the layout of urban functions and meteorological disaster risk assessment; Strengthening the urban climate change research and experiments, and constantly updating urban planning design parameters and standards; Enhancing the monitoring and early warning of life safety and body health for vulnerable groups and foreign resident population; Actively improving the mechanism for adaptation to climate change in the process of urbanization, etc., so as to offer reference for the preparation and application of urban development system in China.

Key words: response to climate change, large cities, sustainable development, planning, Shanghai, review

中图分类号:

P468

史军, 穆海振. 大城市应对气候变化的可持续发展研究——以上海为例[J]. 长江流域资源与环境, 2016, 25(01): 1-8.

SHI Jun, MU Hai-zhen. SUSTAINABLE DEVELOPMENT OF LARGE CITIES FACING CLIMATE CHANGE——TAKING SHANGHAI AS AN EXAMPLE[J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2016, 25(01): 1-8.

参考文献

[1] 中国城市科学研究会. 中国低碳生态城市发展战略[M]. 北京:中国城市出版社, 2009:1-792.
[2] BIRKMANN J, GARSCHAGEN M, KRAAS F, et al. Adaptive urban governance:new challenges for the second generation of urban adaptation strategies to climate change[J]. Sustainability Science, 2010, 5(2):185-206.
[3] 王伟光, 郑国光. 气候变化绿皮书:应对气候变化报告(2013)[M]. 北京:社会科学文献出版社出版, 2013:1-371.
[4] SHI J, CUI L L. Characteristics of high impact weather and meteorological disaster in Shanghai, China[J]. Natural Hazards, 2012, 60:951-969.
[5] WONG N H, JUSUF S K, TAN C L. Integrated urban microclimate assessment method as a sustainable urban development and urban design tool[J]. Landscape and Urban Planning, 2011, 100(4):386-389.
[6] 史军, 梁萍, 万齐林, 等. 城市气候效应研究进展[J]. 热带气象学报, 2011, 27(6):942-951.[SHI J, LIANG P, WAN Q L, et al. A review of the progress of research on urban climate[J]. Journal of Tropical Meteorology, 2011, 27(6):942-951.]
[7] LEICHENKO R. Climate change and urban resilience[J]. Current Opinion in Environmental Sustainability, 2011, 3(3):164-168.
[8] 白栋. 特大城市低碳空间策略的经验借鉴——以伦敦、东京、纽约为例[J]. 南方建筑, 2013, (4):13-17.[BAI D. Experience of the low-carbon spatial strategies in mega-cities:in reference to London, Tokyo and New York[J]. South Architecture, 2013(4):13-17.]
[9] 陈丹. 应对气候变化渐成城市规划主流理念[EB/OL]. 人民网-环保频道.[2014-08-08]. http://env.people.com.cn/n/2014/0808/c1010-25428397.html.
[10] WHEELER S M. State and municipal climate change plans:the first generation[J]. Journal of the American Planning Association, 2008, 74(4):481-496.
[11] 宋彦, 刘志丹, 彭科. 城市规划如何应对气候变化——以美国地方政府的应对策略为例[J]. 国际城市规划, 2011, 26(5):3-10.[SONG Y, LIU Z D, PENG K. How should urban planning respond to climate change:learning from local strategies in the U.S.[J]. Urban Planning International, 2011, 26(5):3-10.]
[12] HAMIN E M, GURRAN N. Urban form and climate change:balancing adaptation and mitigation in the U.S. and Australia[J]. Habitat International, 2009, 33(3):238-245.
[13] 黄鹤. 美国关于应对气候变化的城市规划研究进展[J]. 动感(生态城市与绿色建筑), 2010(2):36-42.[HUANG H. Current research on climate change adaptation and mitigation through city planning in the U.S.[J]. Eco-city and Green Building, 2010(2):36-42.]
[14] 王忠会. 报告称美国海岸面对气候变化很"脆弱"[EB/OL].新华网.[2013-01-29]. http://www.chinanews.com/gj/2013/01-29/4529608.shtml.
[15] 中华人民共和国建设部, 中华人民共和国国家质量监督检验检疫总局. 绿色建筑评价标准(GB/T 50378-2006)[S]. 北京:中国建筑工业出版社, 2006:1-93.
[16] 苏博, 杨素贞. 2011 ASLA 费城绿色计划[EB/OL].[2011-12-29]. 景观中国. http://landscape.cn/works/Photo/ASLA/20ASLAzhuanyeshejijiang/fenxiyuguihualeirongyujiang/23530.html.
[17] 任泽平.美国低碳城市建设的基本经验[EB/OL].[2014-02-09]. http://finance.eastmoney.com/news/1371,20140209358533958.html.
[18] 窦莉新. 纽约气候变化应对措施见效碳排放下降19%[EB/OL]. 人民网-环保频道.[2014-01-12]. http://www.bjweather.com/climate/2014/01/qhbhyw/2035080.shtml.
[19] 任超, 吴恩融, 卢茨·卡施纳. 城市环境气候信息在德国城市规划中的应用及其启示[J]. 国际城市规划, 2013, 28(4):91-99.[REN C, WU E R, KATZSCHNER L. The application of urban environmental and climatic information in German urban planning and the inspirations for China[J]. Urban Planning International, 2013, 28(4):91-99.]
[20] 刘姝宇, 徐雷. 德国居住区规划针对城市气候问题的应对策略[J]. 建筑学报, 2010(8):20-23.[LIU S Y, XU L. Solutions to urban climate in the residential area planning of Germany[J]. Architectural Journal, 2010(8):20-23.]
[21] REN C, NG E Y, KATZSCHNER L. Urban climatic map studies:a review[J]. International Journal of Climatology, 2011, 31(15):2213-2233.
[22] 魏薇, 秦洛峰. 德国适应气候变化与保护气候的城市规划发展实践[J]. 规划师, 2012, 28(11):123-127.[WEI W, QIN L F. Adaptive urban rural planning development for climate change and protection in Germany[J]. Planners, 2012, 28(11):123-127.]
[23] 王新, 李晓萌. 国外低碳社会建设经验及其启示[J]. 商业时代, 2010(34):97-99.[WANG X, LI X M. Revelations of the low carbon society's development in foreign countries for China[J]. Commercial Times, 2010(34):97-99.]
[24] 王军锋, 闫勇, 杨春玉. 日本低碳社会建设规划分析及对我国的启示[J]. 中国城市经济, 2010(7):271-172.
[25] ASHINA S, FUJINO J, MASUI T, et al. A roadmap towards a low-carbon society in Japan using backcasting methodology:feasible pathways for achieving an 80% reduction in CO₂ emissions by 2050[J]. Energy Policy, 2012, 41:584-598.
[26] 王京钰, 吴敏. 浅析日常生活与日本人的低碳环保意识[J]. 辽宁工业大学学报(社会科学版), 2012, 14(5):60-63.
[27] 任泽平. 日本低碳城市建设的基本经验[EB/OL]. 中国经济新闻网-中国经济时报社.[2014-02-24]. http://jjsb.cet.com.cn/show_175047.html.
[28] 初晓波. 日本的低碳城市建设——以东京都为中心的研究[J]. 科学中国人, 2011(12):52-59.
[29] 上海市统计局编. 上海统计年鉴-2013[R]. 北京:中国统计出版社, 2013.
[30] 熊晓辉. 上海2400万人口压顶:新城功能不完善外迁受阻[EB/OL]. 中国经营报,[2013-03-23]. http://sh.sina.com.cn/news/g/2013-03-23/090139438.html.
[31] 潘家华, 郑艳, 王建武, 等. 气候容量:适应气候变化的测度指标[J]. 中国人口·资源与环境, 2014, 24(2):1-8.[PAN J H, ZHENG Y, WANG J W, et al. Climate capacity:a measurement for adapting to climate chang[J]. China Population, Resources and Environment, 2014, 24(2):1-8.]
[32] 上海市气候中心. 上海市气候变化监测公报(2013)[Z]. 上海, 2014:1-35.
[33] 史军, 崔林丽. 长江三角洲城市群霾的演变特征及影响因素研究[J]. 中国环境科学, 2013, 33(12):2113-2122.[SHI J, CUI L L. Characteristics and influencing factors of haze in the Yangtze River Delta region[J]. China Environmental Science, 2013, 33(12):2113-2122.]
[34] 杨玉华, 应明, 陈葆德. 近58年来登陆中国热带气旋气候变化特征[J]. 气象学报, 2009, 67(5):689-696.[YANG Y H, YING M, CHEN B D. The climatic changes of landfall tropical cyclones in China over the past 58 years[J]. Acta Meteorologica Sinica, 2009, 67(5):689-696.]
[35] 中国气象局. 中国气象灾害年鉴(2014)[M]. 北京:气象出版社, 2014:1-222.
[36] 徐卫忠, 史军, 徐家良. 上海短历时设计暴雨强度的时空分布特征[J]. 上海水务, 2013, 29(2):1-4.[XU W Z, SHI J, XU J L. The spatio-temporal distribution of short duration design rainstorm intensity in Shanghai[J]. Shanghai Water, 2013, 29(2):1-4.]
[37] 陈里予. 救急:上海120招人招到海南岛[EB/OL]. 新闻晨报,[2013-07-24]. http://news.sina.com.cn/o/2013-07-24/073927755448.shtml.
[38] 市民政局, 市老龄办, 市统计局联合发布. 2013年上海市老年人口和老龄事业监测统计信息[EB/OL].[2014-04-11]. http://www.shmzj.gov.cn/gb/shmzj/node4/node10/node1775/u1ai37519.html.
[39] MCCORMICK K, ANDERBERG S, COENEN L, et al. Advancing sustainable urban transformation[J]. Journal of Cleaner Production, 2013, 50:1-11.
[40] TYLER S, MOENCH M. A framework for urban climate resilience[J]. Climate and Development, 2012, 4(4):311-326.
[41] JANSSON Å. Reaching for a sustainable, resilient urban future using the lens of ecosystem services[J]. Ecological Economics, 2013, 86:285-291.
[42] BROTO V C, BULKELEY H. A survey of urban climate change experiments in 100 cities[J]. Global Environmental Change, 2013, 23(1):92-102.
[43] 史军, 崔林丽, 贺千山, 等. 华东雾和霾日数的变化特征及成因分析[J]. 地理学报, 2010, 65(5):533-542.[SHI J, CUI L L, HE Q S, et al. The changes and causes of fog and haze days in eastern China[J]. Acta Geographica Sinic, 2010, 65(5):533-542.]
[44] SILVA J D, KERNAGHAN S, LUQUE A. A systems approach to meeting the challenges of urban climate change[J]. International Journal of Urban Sustainable Development, 2012, 4(2):125-145.

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